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Vehicular RF Convergence: Simultaneous Radar, Communications, and PNT for Urban Air Mobility and Automotive Applications

Publication ,  Conference
Herschfelt, A; Chiriyath, A; Bliss, DW; Richmond, CD; Mitra, U; Blunt, SD
Published in: IEEE National Radar Conference - Proceedings
September 21, 2020

Modern RF environments are becoming increasingly congested. This limits the opportunities and capabilities of modern RF systems, obstructing the development and proliferation of new technologies. Novel vehicular RF technologies promise a new era of transportation capabilities, but legacy design techniques cannot adapt to the current spectral congestion. We summarize recent RF Convergence results and discuss how they mitigate spectral congestion in modern vehicular applications. We propose a joint radar, communications, positioning, navigation, and timing (JRCPNT) system architecture as a suitable candidate for future automotive applications. We present relevant performance bounds and initial experimental results to demonstrate the potential performance enhancements of such multiple-function RF systems. We define multiple-channel, multiple-user receiver (MCMUR) techniques that enable this architecture and discuss how these components cooperate to enable these performance enhancements. We summarize initial experimental results to demonstrate the viability of such multiple-function architectures in the context of urban air mobility (UAM) and other automotive applications.

Duke Scholars

Published In

IEEE National Radar Conference - Proceedings

DOI

ISSN

1097-5659

Publication Date

September 21, 2020

Volume

2020-September
 

Citation

APA
Chicago
ICMJE
MLA
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Herschfelt, A., Chiriyath, A., Bliss, D. W., Richmond, C. D., Mitra, U., & Blunt, S. D. (2020). Vehicular RF Convergence: Simultaneous Radar, Communications, and PNT for Urban Air Mobility and Automotive Applications. In IEEE National Radar Conference - Proceedings (Vol. 2020-September). https://doi.org/10.1109/RadarConf2043947.2020.9266507
Herschfelt, A., A. Chiriyath, D. W. Bliss, C. D. Richmond, U. Mitra, and S. D. Blunt. “Vehicular RF Convergence: Simultaneous Radar, Communications, and PNT for Urban Air Mobility and Automotive Applications.” In IEEE National Radar Conference - Proceedings, Vol. 2020-September, 2020. https://doi.org/10.1109/RadarConf2043947.2020.9266507.
Herschfelt A, Chiriyath A, Bliss DW, Richmond CD, Mitra U, Blunt SD. Vehicular RF Convergence: Simultaneous Radar, Communications, and PNT for Urban Air Mobility and Automotive Applications. In: IEEE National Radar Conference - Proceedings. 2020.
Herschfelt, A., et al. “Vehicular RF Convergence: Simultaneous Radar, Communications, and PNT for Urban Air Mobility and Automotive Applications.” IEEE National Radar Conference - Proceedings, vol. 2020-September, 2020. Scopus, doi:10.1109/RadarConf2043947.2020.9266507.
Herschfelt A, Chiriyath A, Bliss DW, Richmond CD, Mitra U, Blunt SD. Vehicular RF Convergence: Simultaneous Radar, Communications, and PNT for Urban Air Mobility and Automotive Applications. IEEE National Radar Conference - Proceedings. 2020.

Published In

IEEE National Radar Conference - Proceedings

DOI

ISSN

1097-5659

Publication Date

September 21, 2020

Volume

2020-September